Electronics, Second Edition deals with the behavior, properties, and control of electrons. The book discusses the basis of electronics technologythe electron, electric current, conductors, semi-conductors, insulators, current flow, and the relationship between the electromotive force (e.m.f.) and current. It also explains amplitude, frequency, wavelength, phase, harmonics, modulation, and ultrasonic waves. The book describes the main components of a simple amplifier, the frequencies it can handle (20 Hz to 20 kHz, or higher depending on what it is connected to its output), or if it can drive a loudspeaker (no, but it is suitable for high-impedance headphones). It explains how signals are generated such as sine waves, square waves, pulses, sawtooth; modifying another signal can also generate a particular waveform. It also discusses the principles of radio and television, radar, microwave, the distinguishing feature of a digital circuit, as well as the operation of a remote control TV. The book is suitable for radio technicians, engineers, apprentices, hobbyists, and students of electrical engineering or electronics.

Electronics: Basic, Analog, and Digital with PSpice does more than just make unsubstantiated assertions about electronics. Compared to most current textbooks on the subject, it pays significantly more attention to essential basic electronics and the underlying theory of semiconductors. In discussing electrical conduction in semiconductors, the author addresses the important but often ignored fundamental and unifying concept of electrochemical potential of current carriers, which is also an instructive link between semiconductor and ionic systems at a time when electrical engineering students are increasingly being exposed to biological systems. The text presents the background and tools necessary for at least a qualitative understanding of new and projected advances in microelectronics. The author provides helpful PSpice simulations and associated procedures (based on schematic capture, and using OrCAD 16.0 Demo software), which are available for download. These simulations are explained in considerable detail and integrated throughout the book. The book also includes practical, real-world examples, problems, and other supplementary material, which helps to demystify concepts and relations that many books usually state as facts without offering at least some plausible explanation. With its focus on fundamental physical concepts and thorough exploration of the behavior of semiconductors, this book enables readers to better understand how electronic devices function and how they are used. The book's foreword briefly reviews the history of electronics and its impact in today's world. ***Classroom Presentations are provided on the CRC Press website. Their inclusion eliminates the need for instructors to prepare lecture notes. The files can be modified as may be desired, projected in the classroom or lecture hall, and used as a basis for discussing the course material.***

Electronics: A Course Book for Students, Second Edition, provides a general introduction to electronics for those who find formal or examination texts to be unsuitable for their needs. This revised text includes more analytical work on circuits. Examples and examination-type exercises are also provided. The book's early chapters focus on the basic components, such as resistors, capacitors, inductors, and transistors. Readers are then introduced to combinations of these components that form the fundamental circuits from which most electronic equipment is built. Semiconductor devices are also discussed, especially monolithic integrated circuits. Several practical aspects of electronics are covered and some useful circuits are given with details of the components used. The book supplies a suitable course for the non-electronic specialist. For those who are studying as physicists or electronic engineers the work should provide a useful introduction that supplements the mathematical and analytical texts. Although it is assumed that the reader has no previous knowledge of electronics, some acquaintance with certain aspects of physics and mathematics must be taken for granted. The reader is expected to have heard of Ohm's Law, to be able to manipulate algebraic expressions, to perform very simple differentiations and to know what is meant by a simple integral.

Designed for both the student and hobbyist, this book is an introduction to the theory and practice of electronics including advances in microcontrollers, sensors, and wireless communication. Each chapter contains a brief lab to demonstrate the topic covered then moves on to the final part which combines the knowledge mastered by building a programmable robot (Arduino and Netduino). The companion disc includes videos of the labs, soldering skills, and code samples for programming of the robot. Covering both the theory and its practical application, this text leads the reader through the basic science concepts underlying electronics, building basic circuits, learning the roles of the components, the application of digital theory, and the possibilities for innovation by combining sensors, motors, and microcontrollers. The book includes appendices on mathematics for electronics, a timeline of electronics innovation, careers in electronics, and a glossary. eBook Customers: Companion files are available for downloading with order number/proof of purchase by writing to the publisher at info@merclearning.com. Features: Includes a companion disc with eighteen video tutorials on currents, soldering, power supply, resistors, decoder circuits, and more Leads the reader through an introductory understanding of electronics with simple labs and then progressing to the construction of a microcontroller-driven robot using open source software and hardware (Netduino and Arduino versions) Presents theoretical concepts in a conversational tone, followed by hands-on labs to engage readers by presenting practical applications

This updated edition is an introduction appropriate for both the student and hobbyist to the theory and practice of electronics. It leads the reader through introductory understanding of the science underlying electronics, building basic circuits, learning the roles of the components, the application of digital theory and the possibilities for innovation by combining sensors, motors, and microcontrollers. Each chapter contains a brief lab to demonstrate the topic covered then moving on to the final projects that build a programmable robot with the Netduino or Arduino microcontroller and projects using the Raspberry Pi. The companion disc has videos of the labs, soldering skills, and code samples for programming of the robot. eBook Customers: Companion files are available for downloading with order number/proof of purchase by writing to the publisher at info@merclearning.com. Features: Leads the reader through an introductory understanding of electronics with both simple labs and progressing to the construction of a microcontroller-driven robot using open source software and hardware and projects to run on a Raspberry Pi Companion disc contains videos of labs, tutorials on soldering/ de-soldering, code for the microcontroller robot project, and figures from the text

This book provides an overview of the newly emerged and highly interdisciplinary field of printed electronics • Provides an overview of the latest developments and research results in the field of printed electronics • Topics addressed include: organic printable electronic materials, inorganic printable electronic materials, printing processes and equipments for electronic manufacturing, printable transistors, printable photovoltaic devices, printable lighting and display, encapsulation and packaging of printed electronic devices, and applications of printed electronics • Discusses the principles of the above topics, with support of examples and graphic illustrations • Serves both as an advanced introductory to the topic and as an aid for professional development into the new field • Includes end of chapter references and links to further reading

An overview of the tremendous potential of organic electronics, concentrating on those emerging topics and technologies that will form the focus of research over the next five to ten years. The young and energetic team of editors with an excellent research track record has brought together internationally renowned authors to review up-and-coming topics, some for the first time, such as organic spintronics, iontronics, light emitting transistors, organic sensors and advanced structural analysis. As a result, this book serves the needs of experienced researchers in organic electronics, graduate students and post-doctoral researchers, as well as scientists active in closely related fields, including organic chemical synthesis, thin film growth and biomaterials. Cover Figure: With kind permission of Matitaccia.

Passive Pulse Generators are circuits used to generate very high power electrical pulses. Such pulses find application in a wide range of disciplines, including plasma generation, gas laser physics and radar. * Includes two introductory chapters on techniques used to analyse passive pulse generators * Includes worked examples A valuable reference resource for specialist undergraduates, post graduate students and researchers active in the field og pulsed power and areas where pulsed power is applied, including physicists, engineers and those with an interest in waste and materials processing.

This book provides a comprehensive overview of the rapidly developing field of molecular electronics. It focuses on our present understanding of the electrical conduction in single-molecule circuits and provides a thorough introduction to the experimental techniques and theoretical concepts. It will also constitute as the first textbook-like introduction to both the experiment and theory of electronic transport through single atoms and molecules. In this sense, this publication will prove invaluable to both researchers and students interested in the field of nanoelectronics and nanoscience in general. "Molecular Electronics" is self-contained and unified in its presentation. It may be used as a textbook on nanoelectronics by graduate students and advanced undergraduates studying physics and chemistry. In addition, included are previously unpublished material that will help researchers gain a deeper understanding into the basic concepts involved in the field of molecular electronics.